Since the invention of the microscope, in the actual work of people using the microscope, the depth of field and the microscopic field of view are too small, which has been bothering the majority of users.
Quickly obtaining images beyond depth of field and large field of view is a difficult point in production and scientific research, and traditional methods face the following problems:
1. Noise and color patterns are generated during the image synthesis process, resulting in a decrease in the overall quality.
2 In the process of image combining, displacement (especially the huge displacement of the plane produced by the stereo microscope), resulting in unclear and jagged edges of the image.
3. The image processing speed is too slow, and it takes more than 10 minutes to get a good image.
4 After the image is synthesized, the focus is concentrated in a plane, even if it is clear, it is a flat image, but it is impossible to distinguish the height information of the actual sample, let alone measure the three-dimensional size.
5. In the process of stitching images with a large field of view, the overlapping parts are prone to compound and oversaturated colors, and there are obvious traces. After splicing, it is impossible to accurately analyze and measure, the splicing speed is slow, the operation is complex, and it is easy to make mistakes.
Therefore, traditional methods cannot be widely used in scientific research and production.
The ultra-clear microscope system can easily solve the shortcomings of the above systems, without the need for modification, and is suitable for any microscope. A holographic stereoscopic image of the sample can be obtained within minutes. Completely solve the problem that large magnification and large depth of field of traditional optical system cannot coexist, and can easily carry out high-quality imaging of samples at different heights to obtain high-quality plane **, and then build a 3D model, which can not only obtain the same depth of field and optical details as the electron microscope in the range of optical magnification.
It can also provide a variety of illumination observation methods and true colors that are not available in electron microscopes. In addition to obtaining high-quality flat images, the system can also provide a full-degree-of-freedom model construction of ultra-depth depth of field for three-dimensional samples, allowing users to observe samples from all directions and use a variety of simulated lighting techniques to highlight details. At the same time, the system adopts the latest displacement correction and edge recognition, edge correction technology, which can completely eliminate the jagged edge of the image. Even on a stereo microscope, clear images and full-degree-of-freedom models can be easily obtained. It is a low magnification (optical< 2000x**10000x).
Finally, the system can be upgraded to 3D measurements, which can quickly detect the three-dimensional dimensions of a sample far beyond the scope of conventional planar inspections, including electron microscopy. Take the use of light microscopes to the next level. It is the latest development in optical microscopy.
Ultra-clear flat image of an ant.
Ultra-clear image of the fly.
Potato leaf living stomata (250x).
Beetle larvae (200x).
Clover Seed Bionic (200x).
Clover Seed Bionic (250x).